[" The dissociation constant for acetic ...

[" The dissociation constant for acetic acid "],[" and "HCN" at "25^(@)C" are "1.5times10^(-5)" and "4.5],[times10^(-10)" ,respectiveluy.The equilibrium "],[" constant for the equilibrium "CN^(-)+CH_(3)],[COOH rightleftharpoons HCN+CH_(3)COO^(-)" would be "]

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The dissociation constants for acetic acid and HCN at 25^@C are 1.5xx10^(-5) and 4.5xx10^(-10) respectively. The equilibrium constant for the equilibrium, CN^(-) + CH_3COOHiffHCN+CH_3COO^-

The dissociation constants of acetic acid and HCN at 25^(@)C are 1.5xx10^(-4) and 4.5xx10^(-10) respectively. The equilibrium constant for the equilibrium. CN^(-)+CH_(3)COOH hArr HCN+CH_(3)COO^(-)

The dissociation constants for acetic acid and HCN at 25^(@)C are 1.5xx10^(-5) and 4.5xx10^(-10) , respectively. The equilibrium constant for the equilibirum CN^(-) + CH_(3)COOHhArr HCN + CH_(3)COO^(-) would be

The dissociation constants for acetic acid and HCN at 25^(@)C are 1.5xx10^(-5) and 4.5xx10^(-10) , respectively. The equilivbrium constant for the equilibirum CN^(-) + CH_(3)COOHhArr HCN + CH_(3)COO^(-) would be

The dissociation constants for HCOOH " and " CH_(3)COOH " are " 2.1 xx 10^(-4) " and " 1.8 xx 10^(-5) respectively. Calculate the relative strengths of the acids .

[" The dissociation constant for acetic acid "],[" and "HCN" at "25^(@)C" are "1.5times10^(-5)" and "4.5],[times10^(-10)" ,respectiveluy.The equilibrium "],[" constant for the equilibrium "CN^(-)+CH_(3)],[COOH rightleftharpoons HCN+CH_(3)COO^(-)" would be "]

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